An anisotropic micromechanics model based on the equivalent inclusion method is developed to investigate the rafting direction of Ni-based single crystal superalloys.The micromechanical model considers actual cubic st...An anisotropic micromechanics model based on the equivalent inclusion method is developed to investigate the rafting direction of Ni-based single crystal superalloys.The micromechanical model considers actual cubic structure and orthogonal anisotropy properties. The von Mises stress,elastic strain energy density, and hydrostatic pressure in different inclusions of micromechanical model are calculated when applying a tensile or compressive loading along the[001] direction. The calculated results can successfully predict the rafting direction for alloys exhibiting a positive or a negative mismatch, which are in agreement with pervious experimental and theoretical studies. Moreover, the elastic constant differences and mismatch degree of the matrix and precipitate phases and their influences on the rafting direction are carefully discussed.展开更多
The gradual increase in shipping and drilling activities in the Arctic regions has resulted in the increased importance of studying the structural safety of polar ships in various ice conditions.Rafted ice refers to a...The gradual increase in shipping and drilling activities in the Arctic regions has resulted in the increased importance of studying the structural safety of polar ships in various ice conditions.Rafted ice refers to a type of accumulated and overlapped sea ice;it is driven by external forces,such as wind and waves,and may exert high loads on ships and threaten their structural safety.Therefore,the properties of rafted ice and the construction of numerical models should be studied before exploring the interaction and collision between ships and rafted ice.Based on the nonlinear finite-element method,this paper introduces the cohesive element model for the simulation of rafted ice.The interaction between ships and rafted ice is studied,and the ice force of the hull is obtained.Numerical simulation results are compared with model test findings,and the effectiveness of the cohesive element method in the construction of the model of rafted ice materials is verified.On this basis,a multilayer rafted ice model is constructed,and its interaction with the ship is studied.The research unveils that rafted ice parts impede crack generation and slow down crack propagation to a certain extent.展开更多
The effect of applied tensile stress on the r'-rafting behavior for a Ni-based single-crystal superalloy with more negative misfit was investigated.By conducting interrupted creep tests at high temperature,it indi...The effect of applied tensile stress on the r'-rafting behavior for a Ni-based single-crystal superalloy with more negative misfit was investigated.By conducting interrupted creep tests at high temperature,it indicated that the increase in the applied stress accelerates the r'-rafting(directional coarsening of yr phase).In the early stage of rafting,the r'-cubes start interconnecting at the ends of the parallel-to-applied-stress r'-channel.The distributions of misfit stress,coherent strain and strain energy density of the r/r'phases are then calculated by finite element analysis.The calculation results show that the rafting acceleration is mainly ascribed to the reduced strain energy density in the parallel-to-applied-stress r'-channel that is driven from the couple interaction of external load and misfit stress.Interface dislocation network formation,resulting from the misfit-induced increase in resolved shear stress,also contributes to the r'-rafting.展开更多
Organic/inorganic hybrid polymers have been widely studied for their potential use in nanocontainers and nanocarriers.In this article,one star-shaped hybrid polymer,polyhedral oligomeric silsesquioxane(POSS) grafted p...Organic/inorganic hybrid polymers have been widely studied for their potential use in nanocontainers and nanocarriers.In this article,one star-shaped hybrid polymer,polyhedral oligomeric silsesquioxane(POSS) grafted poly(N,N-(dimethylamino)ethyl methacrylate)(POSS-g-PDMA),was synthesized via reversible addition-fragmentation chain transfer polymerization(RAFT).The pH stimuli-responsive character of POSS-g-PDMA in aqueous solution were also studied.展开更多
基金supported by The National Natural Science Foundation of China (Grants 11102139 and 11472195)The Natural Science Foundation of Hubei Province of China (Grant 2014CFB713)
文摘An anisotropic micromechanics model based on the equivalent inclusion method is developed to investigate the rafting direction of Ni-based single crystal superalloys.The micromechanical model considers actual cubic structure and orthogonal anisotropy properties. The von Mises stress,elastic strain energy density, and hydrostatic pressure in different inclusions of micromechanical model are calculated when applying a tensile or compressive loading along the[001] direction. The calculated results can successfully predict the rafting direction for alloys exhibiting a positive or a negative mismatch, which are in agreement with pervious experimental and theoretical studies. Moreover, the elastic constant differences and mismatch degree of the matrix and precipitate phases and their influences on the rafting direction are carefully discussed.
基金The National Natural Science Foundation of China(Grant Nos.52192693,52192690,51979051,51979056 and U20A20327)the National Key Research and Development Program of China(Grant No.2021YFC2803400)。
文摘The gradual increase in shipping and drilling activities in the Arctic regions has resulted in the increased importance of studying the structural safety of polar ships in various ice conditions.Rafted ice refers to a type of accumulated and overlapped sea ice;it is driven by external forces,such as wind and waves,and may exert high loads on ships and threaten their structural safety.Therefore,the properties of rafted ice and the construction of numerical models should be studied before exploring the interaction and collision between ships and rafted ice.Based on the nonlinear finite-element method,this paper introduces the cohesive element model for the simulation of rafted ice.The interaction between ships and rafted ice is studied,and the ice force of the hull is obtained.Numerical simulation results are compared with model test findings,and the effectiveness of the cohesive element method in the construction of the model of rafted ice materials is verified.On this basis,a multilayer rafted ice model is constructed,and its interaction with the ship is studied.The research unveils that rafted ice parts impede crack generation and slow down crack propagation to a certain extent.
基金National Natural Science Foundation of China(Nos.U1435207,51771007,51671015)National Defense Basic Scientific Research Project(No.A2120132006).
文摘The effect of applied tensile stress on the r'-rafting behavior for a Ni-based single-crystal superalloy with more negative misfit was investigated.By conducting interrupted creep tests at high temperature,it indicated that the increase in the applied stress accelerates the r'-rafting(directional coarsening of yr phase).In the early stage of rafting,the r'-cubes start interconnecting at the ends of the parallel-to-applied-stress r'-channel.The distributions of misfit stress,coherent strain and strain energy density of the r/r'phases are then calculated by finite element analysis.The calculation results show that the rafting acceleration is mainly ascribed to the reduced strain energy density in the parallel-to-applied-stress r'-channel that is driven from the couple interaction of external load and misfit stress.Interface dislocation network formation,resulting from the misfit-induced increase in resolved shear stress,also contributes to the r'-rafting.
基金supported by the Guangdong Province Research Project(No.2011A091000007)the National Natural Science Foundation of China for its financial support(No.21174162)
文摘Organic/inorganic hybrid polymers have been widely studied for their potential use in nanocontainers and nanocarriers.In this article,one star-shaped hybrid polymer,polyhedral oligomeric silsesquioxane(POSS) grafted poly(N,N-(dimethylamino)ethyl methacrylate)(POSS-g-PDMA),was synthesized via reversible addition-fragmentation chain transfer polymerization(RAFT).The pH stimuli-responsive character of POSS-g-PDMA in aqueous solution were also studied.